Water-Related Impacts at the Pebble Mine

Metal mines throughout the world have degraded water quality and require enormous volumes of water. Mining affects water quantity and quality and ways in which the Bristol Bay watershed may be vulnerable should the Pebble Mine be developed.

WATER QUANTITY

Modern metal mining requires massive volumes of water, which are typically diverted from fisheries, domestic, recreational, and agricultural uses, thus increasing competition for water. For example, diversion of lake water in the Andes by Southern Peru Copper Corp. has dried up lakes and surrounding meadows used for fishing and grazing.

Developing and operating the Pebble Mine would require billions of gallons of water each year of mine operation. Northern Dynasty Mines, Inc. (NDM) applied to the State of Alaska in July of 2006 for water rights in the following amounts (in gallons per year):

Location

Surface Water

Groundwater

South Fork Koktuli

12.03 billion

2.8 billion

North Fork Koktuli

8.02 billion

0.2 billion

Upper Talarik Creek

6.84 billion

1.7 billion

This is nearly 35 billion gallons of water a year: more than annual water consumption rates in Anchorage1.

WATER QUALITY

Site operation chemicals: Mine operations use tremendous amounts of chemicals– explosives, fuels, oils, greases, antifreeze, water treatment chemicals, herbicides, pesticides, and road de-icing compounds – that may be released into local surface and groundwater and can be toxic to fish and wildlife.

Tailings: Ore is pulverized and mixed with water and chemicals that separate copper, gold and other metals from the rock. More than 99 percent of processed ore becomes a solid-water-chemical waste called tailings that will be permanently stored within large impoundments.

Process chemicals in tailings may include lime, sodium isopropyl xanthate (e.g. SF-113), dithiophosphate and thionocarbamate (e.g. Aeropromotor AC 6682), methyl isobutylcarbinol (MIBC), and polypropylene glycol methyl ether (Dowfroth 250). Some of these chemicals are recycled but most are discharged with the tailings.

RISK OF LEAKAGE

Copper mines frequently operate for 50 years or more. Tailings impoundments must hold the waste forever and are vulnerable to natural forces such as erosion, landslides and earthquakes. Seepage is collected and returned to the impoundment during operations, but this process usually stops when mining ceases. Inevitably, some of the “chemical soup” seeps out into the surrounding ground and surface waters.

The Bingham Canyon Mine, like Pebble, is a copper/gold/molybdenum mine, currently the largest in North America with an ore body roughly half the size of Pebble. Pollution from the mine has contaminated 60 square miles of groundwater near Salt Lake City, making water unusable for at least 4,300 households. Kennecott Utah Copper Corp., a subsidiary of Rio Tinto, built a multi-million dollar water treatment facility, the largest of its kind in the United States, to treat an estimated 2.7 billion gallons of polluted water annually for at least the next 40 years.

Figure 1. Kennecott Bingham Canyon Mine in Utah. (Left) Tailings impoundment (roughly 9,000 acres) with the Great Salt Lake at the top left. The pit is 0.75 miles deep, 2.5 miles wide, and covers 1,900 acres. (Right) Tailings are shown in the foreground (grey) with Salt Lake City in the background. Operations produced a 60 square-mile groundwater plume under valley to right, mostly from waste rock seepage. As of 2006, Kennecott had spent $370 million on cleanup and source control, and will be required to pump and treat aquifer water for at least the next 40 years. By 2009, 2.7 billion gallons of water will be treated annually to supply homes unable to use the aquifer.

The proposed Pebble Mine has similar potential to contaminate ground water. It is located in the headwaters of Bristol Bay, a pristine region laced with streams, rivers and lakes. The extensive glacial gravel deposits are highly permeable, a characteristic that contributes to salmon productivity but also provides pathways for water and potentially for mine wastes to move between surface and groundwater and between river basins. Salmon have adapted to the local surface water, naturally pure with extremely low concentrations of dissolved minerals; even minute amounts of contaminants can potentially impact salmon.

Modern metal mining operations throughout the world have degraded water quality and increased competition for water. These impacts often do not become apparent until after mine operations cease.

Alaska Native leaders, English angler celebrities, scientists and more available for interviews.

The award-winning documentary, Red Gold, follows the world's largest run of sockeye salmon from Alaska's Bristol Bay to their natal spawning grounds. The film weaves in the extraordinary stories of the Alaska Native people and commercial fishermen whose lives and traditions the salmon sustain. The proposed Pebble mine, a massive gold-copper-molybdenum deposit, now threatens to devastate those pristine spawning grounds.